CH630761A5 - Circuit arrangement for transmission of a service channel in a microwave radio system - Google Patents

Description

The present invention relates to a circuit arrangement for transmitting a service channel in a directional radio system, in which the service channel is at the lower frequency end of the baseband.

Service facilities are communication aids that run parallel to microwave links. They enable service calls to maintain operation between the radio relay stations and their relay points. In order to make communication in the service channel as secure as possible, all operating devices have been excluded from the transmission and the service channel has been directly modulated onto the radiated radio signal. Such a method is very complex since extensive additional devices are necessary, above all because not only via this service channel

Telephone calls are to be processed, but also signaling signals about operating states, changeover signals to replacement devices and also measured values are to be transmitted.

The invention is based on the object of specifying a circuit arrangement for transmitting a service channel in a directional radio system, the circuit complexity of which is as low as possible.

According to the invention, this object is achieved in that an io network is present for each transmission and reception direction of the service channel with connections for a receiver and a transmitter and with outputs and inputs for connecting devices for the transmission of data signals and voice signals, the network decouples the transmitter from the receiver and the inputs from the outputs for the data and voice signals, and that each network has a signal output that is connected to a busbar that connects the existing networks.

Appropriate embodiments of the invention emerge from the dependent claims.

20 On the basis of the drawing, the invention will be explained using exemplary embodiments with the aid of circuits.

1 is the circuit arrangement of the network for transmitters with receivers,

25 FIG. 2 are two networks for receivers / transmitters and data transmission devices / speech apparatus connected to one another via a BUS line,

Fig. 3 shows the circuit of a combination in a simple terminal and 3o Fig. 4 shows the circuit of a combination in a relay with replacement devices.

1 shows the incoming service channel from the receiver EMI to the one input terminal + of the first operational amplifier VI. The input resistance is Rl. The 35 output of operational amplifier VI is

1. via a resistor R4 to the busbar with the BUS line

2. via a first voltage divider R5 / R7 to the inverse input - of the second operational amplifier V2 and

4o 3. connected via a second voltage divider R2 / R3 to the inverse input - of the first operational amplifier VI.

The transmission input Sdl is connected to the output of the second operational amplifier V2. Its first input + is connected to the bus line 45 via a resistor R8. The bus line is terminated with the resistor R9. Resistor R9 depends on the number of similar networks n connected to the BUS line and is calculated as R9 = R4 / n -1. The input resistance of the amplifier is neglected because REin> R9.

The call arriving from the receiver Emi would get back into the transmitter Sdl via the output of the first operational amplifier VI and the resistor R5 and via the second operational amplifier V2 and run back. 55 The voltage divider R5 / R7 switches the received signal from the receiver Emi to the inverse input - of the second operational amplifier V2. Both received signal parts, from the BUS line via the resistor R8 and via the voltage divider R5 / R7 cancel each other out and 60 become 0, so that the transmitter Sdl no longer receives any signal part from the received signal via the receiver Emi.

The voltage divider R2 / R3 between the output and the inverse input - of the first operational amplifier VI and the resistor R6 between the output and the inverted input - of the second operational amplifier V2 represent negative feedback that regulate the overall gain of the individual amplifiers and the Stabilize the degree of reinforcement.

3rd

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2 shows two networks for receivers / transmitters, which are connected to one another via a BUS line, and a data transmission device with a speech apparatus, on the other hand. This is a receiver module in which the signal arriving at the receiver Em at the terminal a is fed to the operational amplifier VI via the terminal b of a plug connector (not specified). The details of the circuit elements of Fig. 1 have been omitted here. The operational amplifier V2 has its output connected to terminal d and is connected to the transmitter Sd. The BUS line is connected to terminal c.

The bus line is also connected to the further operational amplifiers V3 and V4 which are coupled to one another. The incoming line to the data transmission device FÜan (terminal e) and the speech head SP of the speech apparatus, which are each decoupled via a resistor, are connected to the first input + of the operational amplifier V3.

The output of the fourth operational amplifier V4 leads to the data transmission device FÜab (terminal f) and to the radio button HÖ of the speaking apparatus. Both lines are also decoupled via resistors.

The negative feedback according to FIG. 1, which is not shown in detail in FIG. 2, prevents

that the incoming calls can go back to the transmitter. This applies to the circuit transmitter Sd / receiver Em as well as for the ear and talk button and for the data transmission device at the terminals FÜan and 5 FÜab.

3 shows an embodiment in which the circuit of a simple terminal is reproduced. The circuit in the box labeled EMI corresponds in detail to the circuit arrangement in FIG. 2. Only the transmitter Sdl is added as a box here, the transmitter Sdl being connected to the terminal d with its service.

Fig. 4 shows the circuit combination of devices at a relay point. Here are the active devices on the left side, consisting of receiver Emi, which was shown and explained in FIG. 2, the transmitter Sdl, further the opposite direction consisting of receiver Em2 and transmitter Sd2 and on the right side the reserve devices receiver Emi Transmitter Sdl ', receiver Em2' and transmitter Sd2 'are shown schematically on-20.

The switches S1 and S2 introduced in the interconnection are electronically controllable switches which switch over to the reserve devices in the event of failure of the active devices.

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2 sheets of drawings

Claims (4)

630761 PATENT CLAIMS 1. Circuit arrangement for the transmission of a service channel in a directional radio system, in which the service channel is at the lower frequency end of the baseband, characterized in that a network is present for the transmission and reception direction of the service channel with connections for a receiver (Em) and a transmitter (Sd) and with outputs and inputs for connecting devices for the transmission of data signals (FÜan, FÜab) and voice signals (HÖ, SP), whereby the network decouples the transmitter from the receiver and the inputs from the outputs for the data and voice signals , and that each network has a signal output that is connected to a busbar that connects the existing networks. 2. Circuit arrangement according to claim 1, characterized in that the network for decoupling the transmitter from the receiver each contains two interconnected operational amplifiers (VI, V2), the service signal arriving in the receiver (Emi) receiving the first input (+) of the first operational amplifier ( VI) is supplied, its output via a resistor (R4) to the busbar (BUS), via a first voltage divider (R5 / R7) to the inverse input (-) of the second operational amplifier (V2) and via a second voltage divider (R2 / R3) is connected to the inverse input (-) of the first operational amplifier (VI) and the first input (+) of the second operational amplifier (V2) via a resistor (R8) to the busbar (BUS) and its output to the transmitter (Sdl ) are connected. 3. Circuit arrangement according to claim 1, characterized in that the network for decoupling the outputs and inputs for the data and voice signals contains two interconnected operational amplifiers (V3, V4), the device for the transmission of data and voice signals signal arriving at the terminals (FÜan, SP) is fed to the first input (+) of the third operational amplifier (V3), its output via a resistor (Rll) to the busbar (BUS), via a first voltage divider (R12) to the inverse Input (-) of the fourth operational amplifier (V4) and via a second voltage divider to the inverse input (-) of the third operational amplifier (V3) and the first input (+) of the fourth operational amplifier (V4) with the busbar (BUS) and its output is connected to the inputs (FÜab, HÖ) of the devices for the transmission of data and voice signals via an additional resistor. 4. Circuit arrangement according to claim 3, characterized in that the device for the transmission of voice signals are connected upstream, in the input and in the output line.